You are here

Geography: Gila National Forest

A public engagement protocol: Social science in support of planning efforts

Science Spotlights Posted on: September 10, 2019
A recently released ‘social vulnerability’ protocol provides a detailed manual for applying social science to support forest and river planning efforts (e.g., forest plan revision). Specifically, the protocol is designed to engage the public about the importance of (and tradeoffs among) ecosystem services, as well as those drivers of change influential to such benefits.

Understanding and replicating historical spatial patterns is important to create forests that are resilient to fire and other disturbances

Science Spotlights Posted on: August 21, 2019
Researchers are increasingly recognizing that ponderosa pine forests naturally occur in clumps of trees with isolated single trees in a matrix of non-forested openings. Turns out that this spatial pattern is important in sustaining ecological processes such as fire spread, tree growth and regeneration, and creates biodiversity and wildlife habitat. Yet, most past studies have examined spatial patterns on small plots, which underestimates the sizes of tree groups and openings.

Remnant old-growth ponderosa pine forests provide insights on spatial patterns

Science Spotlights Posted on: August 06, 2019
Researchers are increasingly recognizing that ponderosa pine forests naturally occur in clumps of trees with isolated single trees in a matrix of non-forested openings. It turns out that this spatial pattern is important in sustaining ecological processes such as fire spread, tree growth and regeneration, and creates biodiversity and wildlife habitat. Yet, most past studies have examined spatial patterns on small plots, which underestimates the sizes of tree groups and openings.  

Recreating in color: Promoting ethnic diversity on public lands

Documents and Media Posted on: May 30, 2018
Recent studies of the Forest Service’s National Visitor Use Monitoring (NVUM) data show a wide disparity in racial and ethnic use of national forests. Researchers at the Rocky Mountain Research Station in Fort Collins, Colorado, are studying NVUM numbers systematically and hope that their research will help National Forest System staff to encourage different racial and ethnic groups to connect with public natural lands. Document Type: Other Documents

Fire patterns in piñon and juniper in the Western United States: Trends from 1984 through 2013

Science Spotlights Posted on: May 15, 2018
Changes in fire patterns for piñon and juniper vegetation in the western United States were analyzed over a 30-year period. This is the first evaluation of its type.

Seeing red: New tools for mapping and understanding fire severity

Pages Posted on: May 14, 2018
Large, severe fires are ecologically and socially important because they have lasting effects on vegetation and soils, can potentially threaten people and property, and can be costly to manage. The goals of the Fire Severity Mapping Project(FIRESEV), which covers lands in the continental western United States, are to understand where and why fires burn severely, and to give fire managers, fire ecologists, and natural resource managers tools to assess severity before, during, and after a wildfire. FIRESEV has produced a suite of tools for a wide range of fire management applications, including real-time forecasts and assessments in wildfire situations, post-wildfire rehabilitation efforts, and long-term planning.

Wildland fire: Nature's fuel treatment

Pages Posted on: March 06, 2018
Every year wildland fires affect much more acreage in the United States compared to controlled burns. Like controlled burns, wildland fire can help promote biological diversity and healthy ecosystems. But despite these facts, wildland fire is not often considered as a fuel treatment in the United States. Scientists working with the U.S. Forest Service’s Rocky Mountain Research Station have evaluated more than 40 years of satellite imagery to determine what happens when a fire burns into a previously burned area. Results from this research are helping land managers to assess whether a previous wildland fire will act as a fuel treatment based on the length of time since the previous fire and local conditions such as ecosystem type, topography, and fire weather conditions.

Can FIA soils data improve models predicting ponderosa pine density in the Southwest?

Projects Posted on: August 25, 2017
Puhlick et al. (2012) evaluated the influence of numerous abiotic and biotic factors on ponderosa pine regeneration densities in the southwestern United States. The study described here will use newly released soils data from the Forest Inventory and Analysis program to test the influence of soils and other variables on ponderosa pine seedling densities.

National forest climate change maps: your guide to the future

Projects Posted on: April 17, 2017
The National Forest Climate Change Maps project was developed to meet the need of National Forest managers for information on projected climate changes at a scale relevant to decision making processes, including Forest Plans.  The maps use state-of-the-art science and are available for every National Forest in the contiguous United States with relevant data coverage. Currently, the map sets include variables related to precipitation, air temperature, snow (including April 1 snow-water equivalent (SWE) and snow residence time), and stream flow.

Stream water quality after a fire

Projects Posted on: April 07, 2017
Wildland fires in the arid west create a cause for concern for many inhabitants and an area of interest for researchers. Wildfires dramatically change watersheds, yielding floods and debris flows that endanger water supplies, human lives, and valuable fish habitats.

Pages